Bacterial dispersers along preferential flow paths of a clay till depth profile

U.S. Krüger, A. Dechesne, F. Bak, N. Badawi, O. Nybroe, J. Aamand

Research output: Contribution to journalArticleResearchpeer-review

7 Citations (Scopus)

Abstract

This study assessed the dispersal of five bacterial communities from contrasting compartments along a fractured clay till depth profile comprising plow layer soil, preferential flow paths (biopores and the tectonic fractures below), and matrix sediments, down to 350 cm below the surface. A recently developed expansion of the porous surface model (PSM) was used to capture bacterial communities dispersing under controlled hydration conditions on a soil-like surface. All five communities contained bacteria capable of active dispersal under relatively low hydration conditions (-3.1 kPa). Further testing of the plow layer community revealed active dispersal even at matric potentials of -6.3 to -8.4 kPa, previously thought to be too dry for dispersal on the PSM. Using 16S rRNA gene amplicon sequencing, the dispersing communities were found to be less diverse than their corresponding total communities. The dominant dispersers in most compartments belonged to the genus Pseudomonas and, in the plow layer soil, to Rahnella as well. An exception to this was the dispersing community in the matrix at 350 cm below the surface, which was dominated by Pantoea. Hydrologically connected compartments shared proportionally more dispersing than nondispersing amplicon sequence variants (ASVs), suggesting that active dispersal is important for colonizing these compartments. These results highlight the importance of including soil profile heterogeneity when assessing the role of active dispersal and contribute to discerning the importance of active dispersal in the soil environment.

Original languageEnglish
Article numbere02658-18
Number of pages16
JournalApplied and Environmental Microbiology
Volume85
Issue number6
DOIs
Publication statusPublished - 1 Mar 2019

Keywords

  • Community motility
  • Liquid film
  • Preferential flow paths
  • Soil
  • Succession

Programme Area

  • Programme Area 2: Water Resources

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